Whole-brain mapping of histaminergic projections in mouse brain.
Wenkai LinLingyu XuYanrong ZhengSile AnMengting ZhaoWei-Wei HuMengyao LiHui DongAnan LiYu-Long LiHui GongGang PanYi WangQingming LuoZhong ChenPublished in: Proceedings of the National Academy of Sciences of the United States of America (2023)
Histamine is a conserved neuromodulator in mammalian brains and critically involved in many physiological functions. Understanding the precise structure of the histaminergic network is the cornerstone in elucidating its function. Herein, using histidine decarboxylase (HDC)-CreERT2 mice and genetic labeling strategies, we reconstructed a whole-brain three dimensional (3D) structure of histaminergic neurons and their outputs at 0.32 × 0.32 × 2 μm 3 pixel resolution with a cutting-edge fluorescence microoptical sectioning tomography system. We quantified the fluorescence density of all brain areas and found that histaminergic fiber density varied significantly among brain regions. The density of histaminergic fiber was positively correlated with the amount of histamine release induced by optogenetic stimulation or physiological aversive stimulation. Lastly, we reconstructed a fine morphological structure of 60 histaminergic neurons via sparse labeling and uncovered the largely heterogeneous projection pattern of individual histaminergic neurons. Collectively, this study reveals an unprecedented whole-brain quantitative analysis of histaminergic projections at the mesoscopic level, providing a foundation for future functional histaminergic study.
Keyphrases
- resting state
- white matter
- functional connectivity
- spinal cord
- cerebral ischemia
- high resolution
- magnetic resonance
- magnetic resonance imaging
- gene expression
- skeletal muscle
- multiple sclerosis
- metabolic syndrome
- blood brain barrier
- subarachnoid hemorrhage
- spinal cord injury
- genome wide
- current status
- energy transfer